Hierarchical micro/nanostructured silver hollow fiber boosts electroreduction of carbon dioxide
Shoujie Li, Wei Chen, Xiao Dong, Chang Zhu, Aohui Chen, Yanfang Song, Guihua Li, Wei Wei, Yuhan Sun
Abstract
Abstract Efficient conversion of CO 2 to commodity chemicals by sustainable way is of great significance for achieving carbon neutrality. Although considerable progress has been made in CO 2 utilization, highly efficient CO 2 conversion with high space velocity under mild conditions remains a challenge. Here, we report a hierarchical micro/nanostructured silver hollow fiber electrode that reduces CO 2 to CO with a faradaic efficiency of 93% and a current density of 1.26 A · cm −2 at a potential of −0.83 V vs . RHE. Exceeding 50% conversions of as high as 31,000 mL · g cat −1 · h −1 CO 2 are achieved at ambient temperature and pressure. Electrochemical results and time-resolved operando Raman spectra demonstrate that enhanced three-phase interface reactions and oriented mass transfers synergistically boost CO production.